Title :
An algorithm for restoring fisheye image using nonlinear inverse diffusion equation
Author_Institution :
Dept. of Comput. Eng., Hoseo Univ., Asan, South Korea
Abstract :
When we are collecting traffic information from CCTV images, we have to install a detection zone in the image area while the pan-tilt system is on duty. Automation of an installing detection zone with pan-tilt system is not easy because of machine errors. Therefore, a fisheye lens camera or convex mirror camera is necessary for getting wide area images. There is a problem, in this situation, decreased system speed or image distortion. The distortion is caused by occlusion of angled rays as in snapshots taken by a trembling person. In order to overcome distortion, in this paper, we propose a speedy method of de-blurring by nonlinear inverse diffusion equation. The result of applying de-blurring methods shows that the proposed method has 11% of increased MSE more than Landweber method.
Keywords :
image segmentation; nonlinear equations; object detection; traffic engineering computing; CCTV image; Landweber method; convex mirror camera; deblurring method; detection zone; fisheye image; fisheye lens camera; image distortion; nonlinear inverse diffusion equation; occlusion; pan-tilt system; traffic information; Cameras; Educational institutions; Equations; Image segmentation; Lenses; Mathematical model; Nonlinear distortion; De-blurring; Fisheye Image; Nonlinear Inverse Diffusion Equation;
Conference_Titel :
Control, Automation and Systems (ICCAS), 2011 11th International Conference on
Conference_Location :
Gyeonggi-do
Print_ISBN :
978-1-4577-0835-0
